Isogeometric Shape Optimization of Multi-Tapered Coaxial Baluns Simulated by an Integral Equation Method

Boian Balouchev; J\"urgen D\"olz; Maximilian Nolte; Sebastian Sch\"ops; Riccardo Torchio

arXiv:2406.19025·cs.CE·May 19, 2026

Isogeometric Shape Optimization of Multi-Tapered Coaxial Baluns Simulated by an Integral Equation Method

Boian Balouchev, J\"urgen D\"olz, Maximilian Nolte, Sebastian Sch\"ops, Riccardo Torchio

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TL;DR

This paper presents an isogeometric integral equation approach for shape optimization of multi-tapered coaxial baluns, leading to improved antenna performance across frequencies.

Contribution

It introduces a spline-based shape optimization method combined with a high-order integral equation model for better antenna design.

Findings

01

Significant reduction in scattering parameters achieved.

02

Enhanced optimization results over a broad frequency spectrum.

Abstract

We discuss the advantages of a spline-based freeform shape optimization approach using the example of a multi-tapered coaxial balun connected to a spiral antenna. The underlying simulation model is given in terms of a recently proposed isogeometric integral equation formulation, which can be interpreted as a high-order generalization of the partial element equivalent circuit method. We demonstrate a significant improvement in the optimized design, i.e., a reduction in the magnitude of the scattering parameter over a wide frequency range.

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temf/igapeec_balun_opt
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Taxonomy

TopicsAdvanced Numerical Analysis Techniques · Computational Geometry and Mesh Generation · Advanced Theoretical and Applied Studies in Material Sciences and Geometry